In this work, a continuum constitutive framework for the mechanical modelling of soft tissues that incorporates strain rate and temperature dependencies as well as the transverse isotropy arising from fibres embedded into a soft matrix is developed. The constitutive formulation is based on a Helmholtz free energy function decoupled into the contribution of a viscous-hyperelastic matrix and the contribution of fibres introducing dispersion dependent transverse isotropy. The proposed framework considers finite deformation kinematics, is thermodynamically consistent and allows for the particularisation of the energy potentials and flow equations of each constitutive branch. In this regard, the approach developed herein provides the basis on wh...
Extensive research has been performed in the past decades to study the behavior of soft biological t...
Strain measures consistent with the classical, infinitesimal form of the strain-energy function are ...
AbstractThis article discusses an invariant formulation for transversely isotropic hyperelasticity. ...
In this work, a continuum constitutive framework for the mechanical modelling of soft tissues that i...
A transversely isotropic visco-hyperelastic constitutive model is provided for soft tissues, which ...
Characterising and modelling the mechanical behaviour of biological soft tissues is an essential ste...
A general transversely isotropic viscohyperelastic constitutive law including strain rate effects wa...
We present a new constitutive formulation that combines certain desirable features of two previously...
International audienceMany soft tissues are naturally made of a matrix and fibres that present some ...
This research describes a general theoretical framework for the constitutive modeling of biological ...
AbstractIn this paper, an exponential framework for strain energy density functions of elastomers an...
This study describes the development of a constitutive law for the modelling of the periodontal liga...
Abstract Inspired by biology and engineered soft active material systems, we propose a new constitut...
In order to avoid the numerical difficulties in locally enforcing the incompressibility constraint u...
Continuum strain energy density functions are developed for soft biological tissues that possess sle...
Extensive research has been performed in the past decades to study the behavior of soft biological t...
Strain measures consistent with the classical, infinitesimal form of the strain-energy function are ...
AbstractThis article discusses an invariant formulation for transversely isotropic hyperelasticity. ...
In this work, a continuum constitutive framework for the mechanical modelling of soft tissues that i...
A transversely isotropic visco-hyperelastic constitutive model is provided for soft tissues, which ...
Characterising and modelling the mechanical behaviour of biological soft tissues is an essential ste...
A general transversely isotropic viscohyperelastic constitutive law including strain rate effects wa...
We present a new constitutive formulation that combines certain desirable features of two previously...
International audienceMany soft tissues are naturally made of a matrix and fibres that present some ...
This research describes a general theoretical framework for the constitutive modeling of biological ...
AbstractIn this paper, an exponential framework for strain energy density functions of elastomers an...
This study describes the development of a constitutive law for the modelling of the periodontal liga...
Abstract Inspired by biology and engineered soft active material systems, we propose a new constitut...
In order to avoid the numerical difficulties in locally enforcing the incompressibility constraint u...
Continuum strain energy density functions are developed for soft biological tissues that possess sle...
Extensive research has been performed in the past decades to study the behavior of soft biological t...
Strain measures consistent with the classical, infinitesimal form of the strain-energy function are ...
AbstractThis article discusses an invariant formulation for transversely isotropic hyperelasticity. ...